International Journals

  1. M. M. Ahn, Y. D. Yang, D. J. Im, J. M. Oh and I. S. Kang, Selective cation depletion from an ionic liquid droplet under an electric field, J. Mol. Liq., Vol. 244, 117-123 (2017)
  2. J. A. Lee and I. S. Kang, Geometric effects on electrocapillarity in nanochannels with an overlapped electric double layer, Phys. Rev. E, Vol. 94, 043105 (2016)
  3. T. Um, J. Hong, D.J. Im, S.J. Lee, I.S. Kang, Electrically Controllable Microparticle Synthesis and Digital Microfluidic Manipulation by Electric-Field-Induced Droplet Dispensing into Immiscible Fluids, Sci. Rep. , Vol. 6, 31901 (2016)
  4. Rajni, J. M. Oh, I. S. Kang, Ion size effects on the osmotic pressure and electrocapillarity in a nanoslit: Symmetric and asymmetric ion sizes, Phys. Rev. E, Vol. 93, 063112 (2016)
  5. G. J. Moon, M. M. Ahn, I. S. Kang, Osmotic pressure of ionic liquids in electric double layer: Prediction based on a continuum model, Phys. Rev. E, Vol. 92, 063020 (2015)
  6. J. Lee, E. Oh, T. Kim, J-H Sa, S-H Lee, J. Park, D. Moon, I. S. Kang, M. J. Kim, S. M. Kim, K-H Lee, The influence of boundary layer on the growth kinetics of carbon nanotube forests, Carbon, Vol. 93, 217-225 (2015)
  7. D. J. Im, S. N. Jeong, B. S. Yoo, B. L. Kim, D. P. Kim, W. J. Jeong and I. S. Kang, Digital microfluidic approach for efficient electroporation with high productivity : transgene expression of microalgae without cell wall removal, Anal. Chem, Vol. 87, 6592–6599 (2015)
  8. M. M. Ahn, D. J. Im, B. S. Yoo and I. S. Kang, Characterization of Electrode Alignment for Optimal Droplet Charging and Actuation in Droplet-based Microfluidic System, Electrophoresis, Vol. 36, 2086-2093 (2015)
  9. D. Kwon, S. Lee, M. M. Ahn, I. S. Kang, K. H. Park and S. Jeon, Colorimetric detection of pathogenic bacteria using platinum-coated magnetic nanoparticle clusters and magnetophoretic chromatography, Anal. Chim. Acta, vol. 883, 61-66 (2015)
  10. J. A. Lee and I. S. Kang, Electrocapillarity of electrolyte solution in a nanoslit with overlapped electric double layer: continuum approach, Phys. Rev. E, vol. 90, 032401 (2014)
  11. M. M. Ahn, D. J. Im, J. G. Kim, D. W. Lee and I. S. Kang, Extraction of cations from an ionic liquid droplet in a dielectric liquid under electric field, J. Phys. Chem. Lett., vol. 5, 3021-3025 (2014)
  12. S. J. Lee, J. Hong, K. H. Kang, I. S. Kang, S. J. Lee, Electrowetting-Induced Droplet Detachment from Hydrophobic Surfaces, Langmuir, vol. 30, 1805-1811 (2014)
  13. S. Lim, D. Moon, H.J. Kim, J. H. Seo, I. S. Kang, and H. J. Cha, Interfacial Tension of Complex Coacervated Mussel Adhesive Protein According to the Hofmeister Series, Langmuir, vol. 30, 1108-1115 (2014)
  14. D. Moon, D. J. Im, S. Lee, I. S. Kang, A novel approach for drop-on-demand and particle encapsulation based on liquid bridge breakup, Experimental Thermal and Fluid Science,vol 53, 251-258 (2014)
  15. D. Kim, J. K. Park, I. S. Kang, and K. H. Kang, Mechanism of bubble detachment from vibrating walls, Phys. Fluids. , vol.25, 112108 (2013)
  16. M. M. Ahn, D. J. Im and I. S. Kang, Geometric characterization of optimal electrode designs for improved droplet charging and actuation, Analyst, vol. 138, 7362-7368 (2013)
  17. J. Hong, Y. K. Kim, K. H. Kang, J. M. Oh, and I. S. Kang, Effects of Drop Size and Viscosity on Spreading Dynamics in DC Electrowetting, Langmuir, vol. 29, 9118-9125 (2013)
  18. D. Choi, H. Lee, D. J. Im, I. S. Kang, G. Lim, D. S. Kim, and K. H. Kang, Spontaneous electrical charging of droplets by conventional pipetting, Sci. Rep., vol. 3, 2037 (2013)
  19. D. J. Im, B. S. Yoo, M. M. Ahn, D. Moon, and I. S. Kang, Digital electrophoresis of charged droplets, Anal. Chem. , vol. 85, 4038-4044 (2013)
  20. D. W. Lee, D. J. Im, and I. S. Kang, Measurement of the interfacial tension in an
    ionic liquid-dielectric liquid system using an electrically deformed droplet, J. Phys. Chem. C, vol. 117, 3426-3430 (2013)
  21. D. W. Lee, D. J. Im, and I. S. Kang, Electric double layer at the interface of ionic
    liquid-dielectric liquid under electric field, Langmuir, Vol. 29, 1875-1884 (2013)
  22. D. J. Im, J. S. Hong, and I. S. Kang, "Numerical analysis on the enhancement of molten steel stirring by magnetic field strength control", Computers & Fluids, Vol. 70, 13-20 (2012)
  23. D. J. Im*, M. M. Ahn, B. S. Yoo, D. Moon, D. W. Lee, and I. S. Kang, "Discrete electrostatic charge transfer by the electrophoresis of a charged droplet in a dielectric liquid", Langmuir, vol. 28, 11655-11956 (2012)
  24. J. G. Kim, I. S. Kang, S. S. Lee, and S. M. Jung, "Analysis of pneumatic transport of pulverized coal using solid phase velocity estimation method", Powder Technology, Vol.230, 188-192 (2012)
  25. D. W. Lee, D. J. Im*, and I. S. Kang, "Electrophoretic motion of a charged water droplet near an oil-air interface", Applied Physics Letters, Vol. 100, 221602 (2012)
  26. D. J. Im, J. Noh, N. W. Yi, J. Park, and I. S. Kang, "Influences of electric field on living cells in a charged water-in-oil droplet under electrophoretic actuation", Biomicrofluidics,Vol. 5, 044112 (2011), and also published in Virtual Journal of Biological Physics Research vol. 22(12) (2011)
  27. G. Kwak, D. W. Lee, I. S. Kang, and K. Yong, "A study on the dynamic behaviors of water droplets impacting nanostructured surfaces", AIP Advances, Vol. 1, 4, 042139-042144 (2011)
  28. D. J. Im, J. Noh, D. Moon, and I. S. Kang, "Electrophoresis of a Charged Droplet in a Dielectric Liquid for Droplet Actuation", Anal. Chem.,Vol. 83, 5168-5174 (2011)
  29. D. W. Lee and I. S. Kang, "Minimum Drag Shape of a Semi-Ellipsoid Exposed to Shear Flow and Its Possible Relation to the Shape of Endothelial Cell", Mathematical Biosciences, Vol. 231, 225-234 (2011)
  30. C. K. Hua, D. W. Lee, and I. S. Kang, "Analyses on a Charged Electrolyte Droplet in a Dielectric Liquid under Non-uniform Electric Fields", Colloids and Surfaces A: Phys and Eng Aspects, Vol. 372, 86-97 (2010)
  31. Y. M. Jung and I. S. Kang, "Electric Charge-Mediated Coalescence of Water Droplets for Biochemical Microreactors", Biomicrofluidics, Vol. 4, 024104 (2010)
  32. C. K. Hua, I. S. Kang, K. H. Kang, H. A. Stone, "Steric effects of ions in the charge-related wetting phenomena", Phys. Rev. E., Vol. 81, 036314 (2010)
  33. J. S. Hong, B. S. Lee, Dustin Moon, Jeong-Gun Lee, and I. S. Kang , "Pumpless dispensing of a droplet by breaking up a liquid bridge formed by electric induction", Electrophoresis., Vol. 31, 1357-1365 (2010)
  34. Y. M. Jung and I. S. Kang , "A Novel Actuation Method of Transporting Droplets by using Electrical Charging of Droplet in a Dielectric Fluid", Biomicrofluidics. ,Vol 3, Issue 2, 022402 (2009)
  35. Y. M. Jung, H. C. Oh, and I. S. Kang , Electrical Charging of a Conducting Water Droplet in a Dielectric Fluid on the Electrode Surface, J. Colloid Interface Sci. , Vol. 322, pp. 617-623 (2008)
  36. H. S. Woo, B. J. Yoon, and I. S. Kang ,Optimization of zeta potential distributions for minimal dispersion in an electroosmotic microchannel, Int. J. Heat Mass Transfer , Vol. 51, pp. 4551-4562 (2008)
  37. J. S. Hong, S. H. Ko, K. H. Kang, and I. S. Kang , A Numerical Investigation on AC Electrowetting of A Droplet, Microfluidics and Nanofluidics, Vol. 5, 263-271 (2008)
  38. J. G. Kim and I. S. Kang , Creeping motion of a bubble with fixed surface charge in a uniform electric field, Chem. Eng. Comm., Vol 194, 1342-1354 (2007)
  39. J. G. KimD. J. ImY. M. Jung, and I. S. Kang ,Deformation and motion of a charged conducting drop in a dielectric liquid under a non-uniform electric field, J. Colloid Interface Sci., Vol 310, 599-606(2007)
  40. S. M. ShinI. S. Kang, and Y. K. Cho,A new method to measure zeta potentials of microfabricated channels by applying a time-periodic electric field in a T channel, Colloids and Surfaces A: Physicochemical and Engineering Aspects., vol. 294, 228-235 (2007)
  41. B. S. LeeH. J. ChoJ.-G. Lee, N. Huh, J. W. Choi, and I. S. Kang,Drop formation via breakup of a liquid bridge in an AC electric field, J. Colloid Interface Sci., vol. 302, 294-307 (2006) (Abstract)
  42. S. J. KimK. H. KangI. S. Kang, and B. J. Yoon,Control of particle-deposition pattern in a sessile droplet by using radial electroosmotic flow, Anal. Chem., vol. 78, 5192-5197 (2006)
  43. K. H. KangJ. ParkI. S. Kang, and K. Y. Huh, Mechanism of the electrohydrodynamic instability of two-layered miscible fluids in microchannels, Int. J. Heat Mass Transfer, vol. 49, 4577-4583(2006)
  44. S. J. KimI. S. Kang, and B. J. Yoon, Electroosmotic helical flow produced by combined use of longitudinal and transverse electric fields in rectangular microchannel, Chemical Eng. Comm., vol. 193, 1075-1089 (2006)
  45. J. G. LeeH. J. ChoN. HuhC. KoW. C. LeeY. H. JangB. S. LeeI. S. Kang, and J. W. Choi, Electrohydrodynamic(EHD) dispensing of nanoliter DNA droplets for microarrays, Biosensors & Bioelectronics, vol. 21, 2240-2247 (2006) (Abstract)
  46. J. ParkS. M. ShinK.Y. HuhI. S. Kang, Application of electrokinetic instability for enhanced mixing in various micro-T-channel geometries, Physics of Fluids17 , 118101-118104 (2005)(Abstract)
  47. S. M. ShinI. S. KangY.K. Cho, Mixing enhancement by using electrokinetic instability under time-periodic electric field, J. of Micromech. and Microeng.15 , 455-462 (2005)(Abstract)
  48. K.H. KangS. J. LeeC. M. Lee, and I.S. Kang, Quantitative visualization of flow inside an evaporating droplet using the ray tracing method, Measurement Sci. & Tech15 , 1104-1112 (2004)(Abstract)
  49. K.H. KangI.S. Kang, Theoretical Investigation on the Liquid Junction Potential in a Slit-Like Microchannel, J. of Electroanal. Chemistry566 , 331-340 (2004) (Abstract)
  50. K.H. KangI.S. Kang, Validity of the Derjaguin Approximation on Electrostatic Effect in the Frumkin-Derjaguin Approach, Langmuir, vol. 19, 9962-9967 (2003) (Abstract)
  51. D.J. Im and I.S. Kang, Electrohydrodynamics of a drop under non-axisymmetric electric fields, J. Colloid Interface Sci., vol. 266, pp. 127-140 (2003) (Abstract)
  52. K.H. KangI.S. Kang, and C.M. Lee, Electrostatic contribution to line tension in a wedge-shaped contact region, Langmuir, Vol. 19 pp. 9334-9342 (2003) (Abstract)
  53. K.H. KangI.S. Kang, and C.M. Lee, Geometry dependence of wetting tension on charge-modified surfaces, Langmuir,vol. 19, 6881-6887 (2003) (Abstract)
  54. K.H. KangI.S. Kang, and C.M. Lee, Wetting tension due to Coulombic interaction in charge-related wetting phenomena, Langmuir,vol. 19, 5407-5412(2003) (Abstract)
  55. H.S. WooJ.H. Jeong, and I.S. Kang, Optimization of surface temperature distribution for control of point defects in the silicon single crystal, J. Crystal Growth247, 320-332(2003) (Abstract)
  56. I.S. Kang, A microscopic study on the rheological properties of human blood in low concentration limit, Korea-Australia Rhelogy Journal14, 77-86(2002) (Abstract)
  57. J.H. Jeong and I.S. Kang, Optimization of the Crystal Surface Temperature Distribution in the Single-Crystal Growth Process by the Czochralski Method, J. Comput. Phys.177, 284-312(2002) (Abstract)
  58. K.H. Kang I.S. Kang, and C. M. Lee , Effects of uniform magnetic field on a growing or collapsing bubble in a weakly viscous conducting fluid, Phys. Fluids14, 29-40(2002) (Abstract)
  59. S. M. ShinI. S. Kang, Effects of magnetic field on the shape of a bubble in a uniaxial straining flow, Int. J. Multiphase Flow, vol. 28, pp. 105-125 (2002) (Abstract)
  60. J. M. OhP. J. Kim, and I. S. Kang, Chaotic oscillation of the bubble in a weakly viscous dielectric fluid under electric field, Phys. Fluids13, 2820-2830(2001) (Abstract)
  61. J. H. Jeong and I. S. Kang, Analytical studies on the crystal-melt interface shape in the Czochralski process for oxide single crystals, J. Crystal Growth, vol. 218, Issues 2-4, pp. 294-312 (2000) (Abstract)
  62. S. M. Lee, D. J. Im, and I. S. Kang, Circulating flows inside a drop under time-periodic non-uniform electric fields, Phys. Fluids, vol. 12, pp.1899-1910 (2000) (Abstract)
  63. B.S. LeeI.S. Kang, and H.C. Lim, Chaotic mixing and mass transfer enhancement by pulsatile laminar flow in an axisymetric wavy channel, Int. J. Heat & Mass Transfer42(1999), 2571-2581 (Abstract)
  64. S.M. Lee and I.S. Kang, Three-dimensional analysis for steady-state shape and small amplitude oscillation of a bubble in uniform and nonuniform electric fields, J. Fluid Mech.384(1999), 59-92 (Abstract)
  65. D.S. NohY. Koh and I.S. Kang, Numerical solutions for the shape evolution of a particle growing in axisymmetric flows of supersaturated solution, J. Crystal Growth183, 427-440 (1998) (Abstract)
  66. H.J. ChoI.S. Kang, Y.C. Kweon, and M.H. Kim, Numerical study on the behavior of a bubble attached to a tip in a nonuniform electric field, Int. J. Multiphase Flow24, 479-498 (1998) (Abstract)
  67. Y.C. Kweon, M.H. Kim, H.J. Cho, and I.S. Kang, Study on the deformation and departure of a bubble attached to a wall in DC or AC electric field, Int. J. Multiphase Flow24, 145-162 (1998)
  68. J.H. JeongH.J. Oh and I.S. Kang, Analytical studies on the crystal-melt interface shape in the Czochralski process, J. Crystal Growth177, 303-314 (1997) (Abstract)
  69. H.J. ChoI.S. Kang, Y.C. Kweon, and M.H. Kim, A study of the behaviors of a bubble attached to a wall in a uniform electric field, Int. J. Multiphase Flow22, 909-922 (1996) (Abstract)
  70. H.J. Oh and I.S. Kang, Effect of crucible geometry on the flow pattern in the magnetic field applied Czochralski process, J. Crystal Growth167, 345-356 (1996) (Abstract)
  71. H.J. Oh and I.S. Kang, A noniterative scheme for orthogonal grid generation in a 2-D domain with specified boundary correspondence on three sides, J. Comput. Phys.112, 138-148 (1994) (Abstract)
  72. I.S. Kang, Dynamics of a conducting drop in a time-periodic electric field, J. Fluid Mech.257, 229-263 (1993)
  73. D.S. NohI.S. Kang, and L.G. Leal, Numerical solutions for the deformation of a bubble rising in dilute polymeric fluids, Phys. Fluids A5, 1315-1332 (1993)
  74. I.S. Kang and L.G. Leal, Orthogonal grid generation in a 2-D domain via boundary integral technique, J. Comput. Phys.102, 78-87 (1992)
  75. H.J. Oh, S.W. Rhee, and I.S. Kang, Simulation of CVD process by boundary integral technique, J. Electrochem. Soc.139, 1714-1720 (1992)

    By I.S. Kang Before POSTECH

  1. H. Lee and I.S. Kang, Neural algorithm for solving differential equations, J. Comput. Phys., 91, 110-131 (1990)
  2. I.S. Kang and L.G. Leal, Bubble dynamics in a time-periodic straining flows, J. Fluid Mech., 218, 41-69 (1990)
  3. I.S. Kang and L.G. Leal, Numerical solution of axisymmetric, unsteady free-boundary problems at finite Reynolds number II. Deformation of a bubble in a biaxial straining flow, Phys. Fluids A, 1, 644-660 (1989)
  4. I.S. Kang and L.G. Leal, The drag coefficient for a spherical bubble in a uniform streaming flow, Phys. Fluids, 31, 233-237 (1988)
  5. I.S. Kang and L.G. Leal, Small amplitude perturbations of shape for a spherical bubble in an inviscid straining flow, J. Fluid Mech., 187, 231-266 (1988)
  6. I.S. Kang and L.G. Leal, Numerical solution of axisymmetric, unsteady free-boundary problems at finite Reynolds number I. Deformation of a bubble in a uniaxial straining flow, Phys. Fluids, 30, 1929-1940 (1987)
  7. I.S. Kang and H.N. Chang, The effect of turbulence promoters on the mass transfer - numerical analysis and flow visualization, Int. J. Heat Mass Transfer, 25, 1167-1181 (1982)
  8. I.H. Kim, I.S. Kang, and H.N. Chang, Mass transfer in the U-turn of an electrodializer, Desalination, 33, 139-161 (1980)